Category Archives: protocols

Trauma centers generally design their trauma teams around the type and volume of injured patients they receive. There must be sufficient depth of coverage to handle multiple “hits” at once. But even the best planning can be overwhelmed by the occasional confluence of the planets where multiple, multiple patients arrive during a relatively short period of time (the “crunch”).

As the reserve of available trauma professionals to see new, incoming patients dwindles, it sometimes even becomes necessary to close the center to new patients. Once those who have already arrived have been processed, the trauma center can open again.

This scenario, while hopefully rare, unfortunately introduces a huge opportunity for errors and omissions in care. There is much more clinical activity, lots of patient information to be gathered and processed, and many decisions to be made. How can you reduce the opportunity for these potential problems?

Consider a “post-crunch” debriefing! Once things have quieted down, assemble all team members in one room. Systematically review each patient involved in the “crunch”, going through physical exam, imaging, lab results, and the final plan. It’s helpful to have access to the electronic medical record during this process so everything that is known can be reviewed. Make sure that all clinical questions are answered, and that solid plans are in place and specific people are assigned to implement them. And most importantly, make sure everything is properly documented. Remember:

“Work not documented is work not done!”

Once you’ve reviewed all of the incoming, don’t forget your patients already in the hospital. Significant issues may have occurred while you were busy, so quickly review their status as well. Chat with their nurses for updates. Make sure they are doing okay.

Tranexamic acid has been in use for decades, just not for trauma. The CRASH-2 trial was a massive multi-country study showed that there was a slight mortality reduction from 16% to 14.5% in trauma patients who had or were at risk for “significant hemorrhage.” Moreover, there was no difference in vascular occlusive events, blood product transfusions, or need for surgery. Sounds great, right?

The MATTERs trial was initiated by the US military and tried to address some of the perceived shortcomings of CRASH-2 and found an absolute mortality reduction of 6.7%. But it also showed DVT rates that were 12x higher and PE rates 9x higher when this drug was given.

Since those two studies, a significant number of critiques have been published, as well as some additional research. Unfortunately, this has only served to cloud the picture. TXA is very inexpensive and readily available, so there has been a significant move to adopt both in the trauma center, as well as during prehospital care prior to arrival.

The trauma group at Denver Heath published a study of 232 patients with a 20% mortality rate from their injuries. They identified three subsets of patients based on their fibrinolytic response upon presentation to the hospital: physiologic fibrinolysis (49% of patients), hyperfibrinolysis (28%), and fibrinolytic shutdown (23%).

They found that mortality significantly increased in those receiving TXA who were physiologic or hyperfibrinolytic, but unchanged in those in shutdown. They cautioned that giving this drug before the patient’s fibrinolytic status was known could contribute to mortality.

Bottom line:So confusing! And many centers already include TXA in their massive transfusion protocol. Most have not seen unexpected mortality after giving the drug, so the jury is not in yet. Each trauma center should weigh the currently known pros and cons, and decide whether they are “believers” or not. Carefully review all mortalities and thrombotic complications after administration to see if there was any relation to the use of TXA.

References:

Massive transfusion protocols and the use of tranexamic acid. Current Opinion Hematol 25(6):482-485, 2018.

Thromboelastography (TEG) and its fraternal twin rotational thromboelastometry (ROTEM) are relatively new toys in the trauma community. They allow for (somewhat) rapid assessment of clotting function, and allow the trauma professional to surmise what products might push abnormal clotting characteristics back toward normal.

Many trauma centers already own this technology due to its use by non-trauma services. But there have been a growing number of research presentations on the topic over the last five years, and many centers are clamoring to buy these units for use in their MTP.

But remember, new technology is usually expensive, and isn’t always all it’s cracked up to be. TEG and ROTEM require a (often-times) new machine and a never-ending supply of disposable cartridges for use, like your ink jet printer. Some hospitals are reluctant to provide the funds unless there is a compelling clinical need.

Surgeons at the University of Cincinnati compared the use of TEG with good, old-fashioned point-of-care (POC) INR testing in a series of major trauma patients seen at their Level I center.

Here are the factoids:

This was a retrospective review of 628 major trauma patients who received both TEG and POC INR testing using an iSTAT device over a 1.5 year period

Median ISS was 13, and there were many sick patients (20% in shock, 21% received blood, 11% died)

INR correlated with all TEG values, with better correlation in patients in shock

Both INR and TEG correlated well with treatment with blood, plasma, and cryoprecipitate

Processing time was 2 minutes for POC INR vs about 30 minutes for TEG

Charges for POC INR were $22,000 vs $397,000 for TEG(!!)

Bottom line: Point of care INR testing and TEG both correlated well with the need for blood products in major trauma patients. But POC INR is much cheaper and faster. Granted, the TEG gurus will say that you can tailor the products administered to meet the exact needs of the patient. But in all my travels, I’ve see very few centers that have fully, effectively, and contemporaneously incorporated TEG or ROTEM into their massive transfusion protocol from start to finish.

The area where TEG and ROTEM are most helpful are in the “mop up” phase at the tail end of the MTP. These tools allow trauma professionals to determine exactly which products are needed to normalize parameters, and they frequently diverge from the 1:1:1 to 1:1:2 ratios at that point to achieve this.

If you don’t have one of these toys yet, make sure that you have a very good clinical reason to do so. If you do, think very carefully about how you can meaningfully incorporate it in the massive transfusion process and write it into your protocol.

Back in the day when I was a resident when a massively bleeding patient came in, we gave crystalloid. And frequently, a lot of it. The books in those days said slam in two liters of saline or lactated Ringer’s solution. It was believed that there was little downside to crystalloid. Consequently, quite a bit of it was given before we ever thought about blood products.

And there were no systems in place to standardize how blood was requested, what was sent, or how much was used. We generally started off with a bunch of packed red cells. Yes, every now and then we might remember to ask for some plasma, and even less commonly some platelets or cryoprecipitate. Ratios? We didn’t really pay attention. In reality, there were probably four red cell packs to one unit of plasma, on average. And the ratio to platelets was so low it was hard to even measure!

By now, we have plenty of data showing that this crystalloid-heavy resuscitation contributed to coagulopathy and poor outcomes. We’ve adopted a more balanced concept of resuscitation, which of course we call “balanced resuscitation.” What does this term mean? Basically, it’s a combination of restricted crystalloid use, more optimized ratios of blood products, and some degree of permissive hypotension in select patients.

Before we dive more deeply into ratios, let’s agree on the nomenclature. You may hear people talking about a 1:1 ratio, or 2:1:1, or even 1:1:2. Which product is which? Always read the paper or text carefully, as there is no real standard here. Typically, if only two numbers are specified, RBCs are first and plasma second. But when three are given, you must determine whether the red cells are first or last. Here are the most common configurations:

RBC : plasma : platelets

Plasma : platelets: RBC

Many papers have been written examining the ratio puzzle. Mortality, complications, renal or lung injury, deep venous thrombosis and pulmonary embolism, lengths of stay, transfusion reactions (of all types), and much more have all been investigated.

The most helpful literature covering transfusion ratios are systematic reviews. The main focus seems to be finding the magic ratio of red cells to everything else. The old-time higher ratios (1:?:4) were generally considered to be inferior, so most research has focused on comparing 1:1:1 to 1:1:2. Here are the main factoids, and all keep to the plasma:platelets:RBC format:

There was no discernible difference in 24-hour or 30-day mortality between groups with ratios of 1:1:1 or 1:1:2

Patients with a 1:1:1 ratio received significantly more platelets and plasma that the 1:1:2 patients

Giving cryoprecipitate or fibrinogen concentrate early had no effect on mortality

Although systematic reviews try to make up for shortcomings of individual studies, they introduce their own problems. However, they overall seem to indicate that the “magic” ratio lies between 1:1:1 and 1:1:2. Most centers strive for the former, but due to many reasons (e.g. no thawed plasma, delivery issues) more realistically try to stay under the latter.

Bottom line: Think about the logistics in your own trauma center, and design your massive transfusion protocol so that you can maintain a ratio somewhere between 1:1:1 and 1:1:2. Every MTP activation should be analyzed by your trauma performance improvement process and must review your final ratios. One thing I’m sure of is that we will continue to refine this over the coming years, so stay tuned!

Hospital medicine in general, and inpatient trauma care specifically, is now characterized by a series of handoffs. These occur between physicians, trainees, nurses, and a host of other trauma professionals. Many trauma centers have implemented a “morning report” type of handoff, which formalizes part of the process and frequently adds a teaching component.

The group at the University of Arkansas studied the impact of implementing a morning report process on length of stay and care planning. Prior to the study, residents handed off care post-call to other residents without attending surgeon involvement. The morning report process added the presence of the post-call surgeon, and the trauma and emergency general surgery attendings coming on duty. Advanced practice nurses collected information on care plan changes.

Here are the factoids:

Problem: There is mention of a survey with 79% response rate detailing 219 trauma admissions during the 90 day study period. This is not explained anywhere else in the abstract, so it is not clear if the data presented represents all admissions.

69% of patients were admitted to a ward bed, and 31% to ICU

Change to the care plan occurred during morning report in 20% of patients

The most common care plan changes were: addition of a procedure in 45%, medication change in 34% (typically pain management)

Mean hospital length of stay decreased from 10 to 6 days (!)

Bottom line: This small, prospective study quantifies a few of the benefits of a formal “morning report” process. The fact that just a little bit of trauma attending oversight decreased length of stay by a whopping 4 days suggests that the residents really needed the increased supervision. Discharge planning is a multidisciplinary activity, and should be a major part of the rounding routine as well.

Formalizing the handoff process is always a good thing. Yes, it takes time and planning, but as this and other studies have shown, it is well worth the effort!

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